PR100 Portable Receiver

R&S®PR100 Portable Receiver Receiver On-site radiomonitoring radiomonitoring from 9 kHz to 7.5 GHz

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R&S®PR100 Portable Receiver Receiver At a glance The R&S®PR100 portable receiver has been specifically designed for radiomonitorin radiomonitoringg applications in the field. The receiver’s functions and control concept have been optimized for monitoring tasks. In addition, it can be used for a variety of other applications. The R&S®PR100 operates in a wide frequency freque ncy range from 9 kHz to 7.5 GHz. Whether used for monitoring emissions, detecting interference or locating miniature transmitters, the receiver always combines high mobility with maximum operating ease. The receiver and the R&S®HE400 1) active directional antenna together form a compact receiving system. The receiver can also be used in conjunction with other antennas, e.g. broadband omnidirectional antennas. 1)

Available from Q4 2016. 2016.

Despite its compact design, the R&S®PR100 offers a wide range of functions otherwise available only in equipment in higher price segments. seg ments. Its favorable price/performance ratio makes it an indispensable instrument for all radiomonitoring tasks where high mobility and costefficiency are crucial. Featuring compact size and low weight, th e R&S®PR100 is ideal for use in places that cannot be accessed with a vehicle. Its low power consumption allows the receiver to operate for up to four hours on a single battery charge. The lithium-ion battery can be exchanged in a matter of seconds without any tools. The current instrument settings are automatically written to the internal memory when the receiver is switched off. Key facts ❙ Fast panorama scan across the entire frequency range from 9 kHz to 7.5 GHz ❙ 10 MHz IF spectrum and demodulation with bandwidths from 150 Hz to 500 kHz ❙ Spectrum and spectrogram (waterfall) display on 6.5" color screen ❙ Storage of measurement data to receiver's built-in SD card ❙ ❙ ❙ ❙

LAN interface for remote control and data output Ergonomic and rugged design for portable use Low weight: 3.5 kg including battery Manual location of emissions with the R&S®HE400 active directional antenna (9 kHz to 7.5 GHz)

❙ Automatic Automatic location location of emissions with direction direction nding

algorithms (20 MHz to 6 GHz) ❙ Display of digital maps on the R&S®PR100; triangulation based on multiple, manually or automatically determined DF results

The R&S®PR100 with the R&S®HE400 active directional antenna: The antenna offers a wide range of optional antenna modules covering the full frequency range from 9 kHz to 7.5 GHz. The preamplifier is accommodated in the grip piece. 2

R&S®PR100 Portable Receiver Receiver At a glance The R&S®PR100 portable receiver has been specifically designed for radiomonitorin radiomonitoringg applications in the field. The receiver’s functions and control concept have been optimized for monitoring tasks. In addition, it can be used for a variety of other applications. The R&S®PR100 operates in a wide frequency freque ncy range from 9 kHz to 7.5 GHz. Whether used for monitoring emissions, detecting interference or locating miniature transmitters, the receiver always combines high mobility with maximum operating ease. The receiver and the R&S®HE400 1) active directional antenna together form a compact receiving system. The receiver can also be used in conjunction with other antennas, e.g. broadband omnidirectional antennas. 1)

Available from Q4 2016. 2016.

Despite its compact design, the R&S®PR100 offers a wide range of functions otherwise available only in equipment in higher price segments. seg ments. Its favorable price/performance ratio makes it an indispensable instrument for all radiomonitoring tasks where high mobility and costefficiency are crucial. Featuring compact size and low weight, th e R&S®PR100 is ideal for use in places that cannot be accessed with a vehicle. Its low power consumption allows the receiver to operate for up to four hours on a single battery charge. The lithium-ion battery can be exchanged in a matter of seconds without any tools. The current instrument settings are automatically written to the internal memory when the receiver is switched off. Key facts ❙ Fast panorama scan across the entire frequency range from 9 kHz to 7.5 GHz ❙ 10 MHz IF spectrum and demodulation with bandwidths from 150 Hz to 500 kHz ❙ Spectrum and spectrogram (waterfall) display on 6.5" color screen ❙ Storage of measurement data to receiver's built-in SD card ❙ ❙ ❙ ❙

LAN interface for remote control and data output Ergonomic and rugged design for portable use Low weight: 3.5 kg including battery Manual location of emissions with the R&S®HE400 active directional antenna (9 kHz to 7.5 GHz)

❙ Automatic Automatic location location of emissions with direction direction nding

algorithms (20 MHz to 6 GHz) ❙ Display of digital maps on the R&S®PR100; triangulation based on multiple, manually or automatically determined DF results

The R&S®PR100 with the R&S®HE400 active directional antenna: The antenna offers a wide range of optional antenna modules covering the full frequency range from 9 kHz to 7.5 GHz. The preamplifier is accommodated in the grip piece. 2

R&S®PR100 Portable Receiver Receiver Applications

Mobile tracking of miniature transmitters ❙ Detection of bugs, e.g. in conference rooms ❙ Location of bugs with the R&S®HE400 active directional

antenna ▷ page 9 Triangulation to locate signal sources in manual DF mode

❙ Manual direction direction nding nding of a signal source source with the

R&S®HE400 active directional antenna ❙ Triangulation based on multiple, manually determined Interference detection and location in professiona professionall radio networks ❙ Reliable detection of radio interference caused, for example, by defective electronic equipment ❙ Fast and effective elimination of interference sources, e.g. at airports ▷ page 5

DF results ❙ Display of results on a digital map loaded in the

R&S®PR100 ▷ page 10 Triangulation to locate signal sources in automatic DF mode ❙ Automatic Automatic direction direction nding of a signal source source with the

Monitoring of user-sp user-specific ecific radio services ❙ Monitoring of a large number of radio services with different scan modes ❙ Monitoring of an organization’s own emissions in an assigned service band ❙ Occupied bandwidth measurements to observe frequency band usage ▷ page 6 Homing of emergency signals ❙ Location of source of emergency call with the R&S®HE400 active directional antenna ❙ Tone function for source location in difcult terrain ▷

page 7

R&S®PR100-DF option ❙ Triangulation based on multiple, automatically determined DF results ❙ Display of results on a digital map loaded in the R&S®PR100 ▷ page 12 Detection of pulsed signals and superimposed transmission ❙ Capture of short-duration pulses, such as radar emissions ❙ Wide IF bandwidth for analysis of short-duration pulses and pulse packets ❙ Polychrome spectrum display for indicating relative signal occupancy ▷ page 13

Location of improvised explosive devices (IED) ❙ Detection of IEDs even when they are in standby mode ❙ Homing of IEDs with the R&S®HE400 active directional antenna ❙ Low weight and long battery operating time for mobile applications ▷ page 8

Top view of the R&S®PR100: maximum operating ease in a compact box.

Rohde & Schwarz R&S®PR100 Portable Receiver 3

R&S®PR100 Portable Receiver Key features

Future-ready investment ❙ Wide frequency range and outstanding performance ❙ Capable of receiving and processing signals of current and future radio services ▷ page 15 High receiver sensitivity, high signal resolution ❙ State-of-the-art digital signal processing for high receiver sensitivity and detection of extremely weak signals without any loss in processing speed ❙ Signicantly superior receiver sensitivity and signal

resolution (compared with conventional analog receivers) ▷ page 21 Retrieval of information through demodulation ❙ Analog-modulated signals demodulated directly in the receiver; contents audible using headphones or built-in loudspeaker ❙ Digitally modulated signals converted to the baseband using I/Q demodulation and stored in the receiver or exported via LAN ❙ Online and ofine analysis of digitally modulated signals,

e.g. with the R&S®CA100 software Monitoring receiver and mobile data memory in a single unit ❙ Collected information written directly to the receiver’s built-in SD card ❙ Ofine analysis of data recording during monitoring

Efficient operation via remote control ❙ Full remote control via LAN interface (SCPI commands to IEEE 488.2) ❙ Efcient, remote receiver operation, e.g. in unattended

monitoring stations ❙ R&S®PR100-Control remote control software from the R&S®RAMON software family included ▷ page 19 Battery operation for mobile use ❙ Low weight: 3.5 kg including battery ❙ Long battery-powered operation: approx. 4 hours Intuitive, simple operation ❙ Short learning curve due to straightforward menu structure and simple operation ❙ Large 6.5" color display for signal analysis ▷ page 17

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Interference detection and location in professional radio networks Its compact design and wide range of special functions make the R&S®PR100 an ideal choice for tracking all types of radio interference. Reliable detection of radio interference caused, for example, by defective electronic equipment To master these tasks, the R&S®PR100 includes special functions such as selectable measurement time and continuous or periodic level output. Since these functions are also effective in the panorama scan mode, even nonperiodic interferers, which are otherwise difficult to recognize due to their irregular appearance in a quickly changing spectrum, can be easily detected.

Fast and effective elimination of interference sources, e.g. at airports Using the R&S®HE400 active directional antenna together with the R&S®PR100 portable receiver, the source of an interference can be quickly and reliably located and eliminated. This capability is especially important in securitycritical radio scenarios (e.g. air t raffic control, ATC) as it prevents high failure costs for the service provider. The fast panorama scan is ideal for this task. In the panorama scan mode, the frequency range of interest is scanned in steps of max. 10 MHz. An FFT of corresponding width is calculated for each step. Maximum scan speed is achieved by selecting the maximum spacing of 100 kHz between the FFT calculation points. This provides a quick overview of the spectrum occupancy. Any changes caused by illegal radio services, interference sources, temporary emissions, etc., are easy to recognize. If the user stops the panorama scan, the receiver switches to the audio-monitoring mode. Using the marker function, a signal of interest can be selected, demodulated, and the signal content analyzed. The step width for the fast panorama scan can be chosen to match the channel spacing of a variety of radio services. The panorama scan provides high scan rates at narrow resolution bandwidths and high sensitivity.

Interference in radiocommunications, e.g. at airports, not only impedes operation – it may even pose a threat to life. Rohde & Schwarz R&S®PR100 Portable Receiver 5

Monitoring of user-specific radio services The frequency scan mode is mainly intended for monitoring radio services that use fixed channel spacing. Monitoring of a large number of radio services with different scan modes In the frequency scan mode, a user-defined frequency range is scanned using fixed channel spacing. The receiver steps through the frequency range of interest and checks every channel to see if any signals are present. If a signal is detected that exceeds the predefined level threshold, the receiver dwells at the corresponding frequency for the set hold time, allowing for the signal to be demodulated and processed. In the case of analog modulation, the demodulated signal can be monitored via the loudspeaker or headphones. In the memory scan mode, predefined channels stored in memory locations are consecutively scanned and analyzed to see if any signals are present. The R&S®PR100 offers 1024 user-definable memory locations. Receive parameters can be assigned separately to each memory location.

The memory scan mode is especially useful for scanning individual frequencies that do not have fixed channel spacing or that use different demodulation modes and bandwidths. The memory scan mode offers the user a greater degree of freedom than the frequency scan mode. Monitoring of an organization’s own emissions in an assigned service band ❙ Shortwave communications ❙ Tactical communications ❙ Air trafc control (ATC) ❙ TETRA ❙ Demodulation, e.g. of broadband TETRA with 200 kHz ❙ ❙ ❙ ❙ ❙ ❙

channel bandwidth 433 MHz/868 MHz/2.4 GHz ISM bands GSM 850/900/1800/1900 AMPS/DECT/UMTS Bluetooth®/WLAN WiMAX™/Wi-Fi RFID/ZigBee

Occupied bandwidth measurements to observe frequency band usage When a modulated signal is approved for licensed frequency bands, it must be ensured that this signal conforms to the defined bandwidth. The R&S®PR100 occupied bandwidth measurements functionality, featuring the % and the x-dB methods, offers two ITU-compliant techniques (in line with ITU-R SM.443) to determine the bandwidth actually used by an emission. In addition, the channel power for the identified bandwidth is calculated and displayed. An integrated function makes it possible to identify the bandwidth’s long-term peak values even over a period of days.

The Bluetooth® word mark and logos are registered trademarks owned by Bluetooth SIG, Inc. and any use of such marks by Rohde & Schwarz is under license. WiMAX Forum is a registered trademark of the WiMAX Forum. WiMAX, the WiMAX Forum logo, WiMAX Forum Certified, and the WiMAX Forum Certified logo are trademarks of the WiMAX Forum.

Smooth operation of an organization's own radio networks is v ital to ensure operational readiness – not only for government operators. 6

Homing of emergency signals Transmitters can be tracked not only visually by displaying the received signal level or the spectrum, but also acoustically with the tone function.

Location of source of emergency call with the R&S®HE400 active directional antenna For example, if an emergency transmitter has been identified at a specific frequency, the user can activate t he tone function in order to locate the transmitter. This function causes the receiver to output a whistling tone whose pitch varies with the level of the signal received. The signal level, in turn, varies as the user changes position or points the antenna in various directions. Tone function for source location in difficult terrain The acoustic level indication allows the user to fully concentrate on the terrain and on tracking the transmitter as there is no need to continuously monitor the receiver display.

When a person in distress has been located with the R&S®PR100 and the R&S®HE400, the position information is immediately forwarded to the rescue team. Rohde & Schwarz R&S®PR100 Portable Receiver 7

Location of improvised explosive devices (IED) By approaching the signal source, the R&S®PR100 can locate even extremely weak signals in difficult terrain.

The occupied bandwidth of a signal can easily be measured. The results are displayed as numerical values and highlighted areas in the spectrum display.

Detection of IEDs even when they are in standby mode For example, the oscillator reradiation of an IED (once the frequency is known) is visible on the display of the R&S®PR100 even if the IED device is operating in the receive-only mode. The receiver of a remote detonation device leaves traces in the frequency spectrum even in standby mode. Oscillator reradiation and other spurious effects caused by remote control electronics are unintended emissions. They tend to occur more frequently in semiprofessional equipment such as is used to detonate improvised explosive devices. Homing of IEDs with the R&S®HE400 active directional antenna The R&S®PR100 receiver’s wide frequency range proves very helpful when it comes to detecting these emissions, since the exact spectral range is not known when the search begins. The receiver features a preselection function, which yields valuable results even in environments characterized by strong noise or strong signal levels close to the frequency of interest. The preselection function limits the signal sum level to be handled by the receiver. As a result, it provides effective signal detection in battlefield scenarios that are highly loaded in terms of frequency and level. Low weight and long battery operating time for mobile applications Weighing only about 3.5 kg, the receiver can be easily carried in a convenient chest strap. The R&S®PR100 operates for an average period of four hours on a single battery charge. This makes it suitable for all kinds of portable radiomonitoring applications.

Tracking telltale signals wit h the R&S®PR100 and the R&S®HE300 active directional antenna. 8

Mobile tracking of miniature transmitters The R&S®PR100 portable receiver offers high mobility plus a convenient carrying strap, making it perfectly suited for all kinds of mobile applications.

Detection of bugs, e.g. in conference rooms The R&S®PR100 can easily detect all types of miniature transmitters (bugs) as it approaches them. Its wide frequency range from 9 kHz to 7.5 GHz covers the frequency bands of the majority of miniature transmitters used today. For frequencies above 7.5 GHz, the R&S®HF907DC frequency-converting, portable directional antenna can be used to expand the receive frequency range up to 18 GHz. Location of bugs with the R&S®HE400 active directional antenna The R&S®PR100 offers a differential mode function to facilitate signal detection. The current spectrum can be stored as a reference spectrum by pressing the associated key during the panorama scan. The receiver then displays any signal variations as a differential spectrum relative to the reference spectrum. Any new or changed signals can be recognized at a glance. The intensity of the signals emitted is strongly dependent on direction, especially in the close vicinity of miniature transmitters. The differential mode function is therefore a valuable aid in tracking these transmitters. Another efficient tool for locating miniature transmitters is the tone function of the R&S®PR100. This function outputs a whistling tone whose pitch varies with the level of the signal received. This facilitates locating the signal source because the user does not have to continuously monitor the receiver display.

Finding bugs with the R&S®PR100 and the R&S®HE400 active directional antenna. Rohde & Schwarz R&S®PR100 Portable Receiver 9

Triangulation to locate signal sources in manual DF mode

Manual direction finding of a signal source with the R&S®HE400 active directional antenna The desired direction information relative to north is obtained by manually lining up the R&S®HE400 in the receive direction where the signal is strongest. This information is shown on a compass rose on the R&S®PR100. Combining this information with the receiver’s GPS position gives the user clear position and direction information that can be used to approximate the location of the signal source. Several DF results can be combined to more exactly pinpoint the source of the signal. Triangulation based on multiple, manually determined DF results

All saved DF results are available in list form. The user selects results from this list to carry out triangulation. The triangulation result, i.e. the strongest signal source, and the calculated error radius are displayed on a digital map loaded in the R&S®PR100. The location of the signal source is now known, and suitable measures can be taken to, for example, render the interfering electrical device inoperative and eliminate the interference.

Direction finding of a signal source with the R&S®HE400 active directional antenna.

Triangulation based on multiple DF results. 10

Display of results on a digital map loaded in the R&S®PR100 Maps for the R&S®PR100 can be downloaded free of charge at www.openstreetmap.org. The R&S®OpenStreetMapWizard (OSMWizard) software makes downloading maps easy. Users simply select a map section, set the desired zoom factor and download the map to a PC. They then copy the files from the PC to the R&S®PR100 SD card, where the files are now available for field use.

The R&S®HE400 active directional antenna including GPS module and electronic compass, connected to the R&S®PR100.

OpenStreetMap (OSM)

OpenStreetMap (OSM) is a user-editable world map that is available at the following Internet address: http://www.openstreetmap.org/ OSM is a wiki project in which users can participate by uploading and editing geographical information such as GPS tracking data or the course of a road or river. This world map is growing daily. OpenStreetMap data can be used freely under the terms of the Creative Commons Attribution-ShareAlike 2.0 license. Maps can be downloaded at www.openstreetmap.org. Rohde & Schwarz R&S®PR100 Portable Receiver 11

Triangulation to locate signal sources in automatic DF mode High-precision, wideband DF methods in a compact package The R&S®PR100-DF upgrade kit turns the R&S®PR100 into a powerful and convenient portable direction finder. Using the patented Rohde & Schwarz single-channel correlative interferometer DF method, it provides DF accuracy and immunity to reflections comparable to that of direction finders with two or more receive paths – without requiring additional hardware. The integrated upgrade kit covers a wide direction finding range of 20 MHz to 6 GHz. The advantages of the R&S®PR100 combined with the proven single-channel DF method provides users with a compact, battery-operated solution that is ideal for applications requiring flexibility and mobility – e.g. when tracking shortduration signals such as push-to-talk communications.

Installing the portable mobile direction finder in a commercial vehicle only takes a few minutes thanks to compact DF antennas with an integrated GPS receiver, electronic compass and an optional magnetic base adapter. Automatic direction finding of a signal source with the R&S®ADD107 or R&S®ADD207 compact DF antenna The receiver automatically obtains the desired bearing information relative to north. This information is shown on a compass rose on the R&S®PR100. When equipped with the R&S®PR100-GPS option, this information is combined with the receiver’s GPS position to provide clear position and direction information on a map. The R&S®PR100-GPS option uses running fix and the integrated triangulation function (including calculation of the error radius) to allow users to combine several DF results and more accurately pinpoint the source of the signal.

The R&S®PR100 with integrated R&S®PR100-DF

Manual triangulation of the automatically

upgrade kit in DF mode.

determined DF results and display of the overlaid result on a map.

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Detection of pulsed signals and superimposed transmission Short-time signals cannot be detected with conventional measurement tools based on averaging signal samples over a period of time. The same limitation applies whenever several pulsed signals occupy the same frequency range. A regular detector cannot separate those signals. The R&S®PR100-PC option eliminates those limitations.

GSM signal (more occurance)

The polychrome spectrum display separates superimposed, pulsed signals that cannot be differentiated using conventional methods (e.g. spectrum, waterfall, max. hold). To differentiate complex signal scenarios of this kind, the receiver analyzes the relative occurrence of each individual frequency/level bin and displays the results versus frequency in a color-coded diagram. Signals that occur more frequently can be simply and clearly separated from less frequent signals by their respective color displayed in the spectrum. The polychrome spectrum is very usefu l for signal separation, for example to identify pulsed interfering signals superimposed on pulsed wanted signals (e.g. GSM, DECT). This also helps to easily differentiate between signals types, e.g. burst or continuous as indicated by colors. Short-time signals with a low duty cycle are normally lost in the averaging process or have a very low POI in clear/write modes. With the polychrome spectrum display those pulses can be detected in realtime, as up to 50 000 spectra per second are processed by the dedicated FPGA architecture.

GSM signal (less occurance)

Superimposed, pulsed signals (e.g. GSM-900 downlink segment) are displayed in different colors based on how often they occur and can be more easily analyzed than with max. hold processing. Rohde & Schwarz R&S®PR100 Portable Receiver 13

Main functional features of the R&S®PR100-PC polychrome spectrum display option Display of results in realtime

Calculation of the polychrome spectrum is fully implemented with FPGA technology. The results are therefore displayed in realtime. Time-consuming postprocessing of recorded signal samples is not necessary. The convenient handling of realtime processing allows the operator to focus on the tasks ahead. Easy to operate

The operator activates the polychrome spectrum display by simply pressing a button. All features of the normal spectrum display (such as markers, level measurement) are available. The settings for the R&S®PR100-PC option are easy and intuitive as well as flexible and powerful enough to optimize the polychrome spectrum display for a wide range of signals. High probability of intercept (POI)

The R&S®PR100-PC option offers a high POI for shorttime pulsed signals. With the integrated dedicated POI mode, pulses with a duration of only 60 µs can be reliably

detected with full level accuracy. Combined with the gapless processing of the R&S®PR100, this offers unparalleled performance.

Wi-Fi

Bluetooth®

A low-amplitude pulsed signal (Bluetooth®) superimposed by a pulsed signal with higher amplitude (WLAN) can only be seen by using the polychrome spectrum. 14

Future-ready investment The receiver’s wide frequency range and outstanding performance make it a future-ready investment. The R&S®PR100 is capable of receiving and processing signals of current and future radio services.

High receiver sensitivity, high signal resolution Using state-of-the-art digital signal processing, the R&S®PR100 can receive signals with high sensitivity and detect even extremely weak signals without any loss in processing speed. The receiver's sensitivity and signal resolution are clearly superior to those of a conventional analog receiver.

Retrieval of information through demodulation Signals with analog modulation can be demodulated in the receiver. The signal can be heard through the built-in loudspeaker or headphones. Complex baseband signals can be recorded internally or externally for offline analysis. The PC-based R&S®CA100 analysis software is available for both online and offline signal analysis. The data to be analyzed is transferred to a PC via LAN. The demodulation bandwidth can be selected independently of the IF bandwidth. Monitoring receiver and mobile data memory in a single unit The receiver provides the following internal storage media and functions for recording measured data: ❙ 64 Mbyte RAM for recording I/Q data up to 500 kHz bandwidth or audio data up to 12.5 kHz bandwidth ❙ 4 Gbyte SD card for storing recorded I/Q data, audio data, spectra and measured data ❙ External SD card reader to read out SD card ❙ Digital audio data recorded in WAV format, measured values in CSV format; screenshots saved in PNG format to SD card ❙ Digital data available online at the LAN interface; can be recorded externally (e.g. on a PC hard disk) ❙ Data buffering not necessary

The R&S®PR100 with fold-out stand for desktop use.


Efficient operation via remote control The receiver can be fully remotely controlled via its LAN interface. This allows efficient, remote operation of the receiver, e.g. in unattended monitoring stations. The LAN interface is capable of handling the maximum data transfer rate. The protocol of the LAN interface is compliant with the IEEE 488.2 SCPI standard. Battery operation for mobile use ❙ Low weight: 3.5 kg including battery ❙ Long battery-powered operation: approx. four hours in RX mode, approx. two hours in DF mode

Specifications in brief of the R&S®HF907DC Frequency range Polarization

band 1

7.5 GHz to 12.5 GHz

band 2

12.5 GHz to 18 GHz

manual setting

horizontal, vertical or 45°

VSWR

typ. 2.5

Impedance

50 Ω

RF connector

N type, female

Weight

including rechargeable approx. 3.5 kg battery

Frequency range extendable up to 18 GHz The R&S®HF907DC SHF DF antenna with downconverter extends the receiving frequency range of the portable receiver up to 18 GHz. The user can then take advantage of the rich feature set of the R&S®PR100 up to 18 GHz, for example to detect interference caused by directional radio link communications.

R&S®HF907DC SHF antenna for extending frequency range up to 18 GHz. 16

Rear view of the R&S®HF907DC.

Intuitive, simple operation

The receiver is controlled conveniently via keys and the rotary knob. Clearly structured menus provide quick access to instrument parameters and functions. Results, as well as the spectrum and waterfall diagrams, can be read at a glance on the bright, well-organized 6.5" VGA color display. The backlighting of the display can

The operating concept of the R&S®PR100 meets the requirements placed on a modern radiomonitoring receiver, i.e. all important functions such as demodulation modes and bandwidths can be set directly using clearly labeled keys. Users are quickly able to use the receiver.

be dimmed for use in dark surroundings. For use in sunlight, a special black-and-white display mode is available that optimizes contrast. The IF panorama display facilitates the detailed analysis of a frequency range of interest. The current receive frequency is positioned at the center of the spectrum display. IF bandwidths between 1 kHz and 10 MHz can be selected to suit the task at hand. The average, min. hold and max. hold functions further expand analysis capabilities.

The user can change how the results are displayed to meet the current requirements. Measured data is available in various formats.

All important functions such as demodulation modes and bandwidths can be set directly using clearly labeled keys provided both on the top and on the front of the receiver. Rohde & Schwarz R&S®PR100 Portable Receiver 17

Digital data is output via the LAN interface: ❙ Complex baseband data (I/Q data) up to 500 kHz bandwidth ❙ Digital audio data up to 12.5 kHz bandwidth ❙ Spectra of panorama scan (with maximum update rate) ❙ Spectra of IF panorama display (with maximum u pdate rate) ❙ Measured signal levels ❙ Measured frequency offset values ❙ Measured eld strength values (antenna factors of

antenna used must be stored in the receiver)

Analog data is output via the corresponding analog interface: ❙ Analog audio data via 3.5 mm jack ❙ 21.4 MHz uncontrolled IF via BNC socket (for receive frequencies from 20 MHz to 7.5 GHz) The user settings and level indication modes become effective at different points in signal processing. This is explained in greater detail in the “Operating principle” section, which uses block diagrams to describe R&S®PR100 operation.

Structure of R&S®PR100 configuration menus.

Display of measured level and IF spectrum.

IF spectrum analysis using marker functions.

Display of IF spectrum and spectrogram (waterfall display).

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Convenient R&S®PR100-Control remote control software The R&S®PR100-Control remote control software is supplied free of charge with the R&S®PR100. It is part of the R&S®RAMON software family and enables convenient and efficient operation of the receiver from a PC workstation. The software offers a straightforward menu structure and intuitive operation so that training requirements for operating personnel are minimal.

The complete functionality provided by the R&S®PR100 can be controlled using the R&S®PR100-Control software. The graphical user interface enables operation of the receiver with easy-to-read online signal display as well as signal recording and playback. Optional R&S®RAMON software packages are available to significantly expand the range of functions. For example, it is possible to add handover functions to and from additional receivers or direction finders, as well as task, reporting and database functions. R&S®RAMON software components can be used to implement customer-specific radiomonitoring systems – from single, standalone systems to nationwide networked systems. Major functional features of R&S®RAMON Fast and simple operation

The main functions can be accessed using shortcuts. The graphical display of results includes: ❙ IF spectrum with waterfall diagram ❙ RF panorama spectrum with waterfall diagram The user can adapt the colors of the display and the size and arrangement of the windows as required for a specific task or area of application. Easy-to-use measurement functions are available within the diagrams. Display, storage and playback of spectra and waterfall data R&S®PR100-Control

enables the recording and playback of RF and IF signal spectra. In addition, digital audio data and I/Q baseband data (digital IF) of up to 500 kHz bandwidth

can be stored, e.g. for the subsequent analysis of digitally modulated signals. Buffering of frequency scan data in a ring buffer

Recording in the ring buffer can be stopped by a mouse click. The stored signals are then available in playback mode for analysis. Frequency list for marking signals

With a mouse click, radio channels can be marked, saved in a list and graphically placed over the spectrum. The frequency list is available for storage and subsequent analysis.


Display of IF spectrum and use of marker function.

Wideband panorama scan with max. hold function and waterfall diagram.

IF spectrum and waterfall diagram of a radar signal from Munich Airport (Germany). 20

Operating principle Frontend Starting from the antenna socket, the frequency in the signal path is limited to 8 GHz. Signal processing then takes place in three paths for three different frequency ranges. Signals from 9 kHz to 30 MHz are routed via a preamplifier directly to the A/D converter. Signals from 20 MHz to 3.5 GHz are routed to the IF section through the preselection and a preamplifier, or through an attenuator in the case of high signal levels. Both the preselection and the attenuator effectively protect the IF section against overloading. This is particularly important in this frequency range, where the maximum signal sum levels occur. Signals from 3.5 GHz to 8 GHz are routed to the IF section through a preamplifier. The three-stage IF section processes the signals from 20 MHz to 8 GHz for the subsequent A/D converter. To provide optimum instrument performance, only signals up to 7.5 GHz are processed in the subsequent stages. The uncontrolled 21.4 MHz IF can also be tapped ahead of the A/D converter via a BNC socket on the R&S®PR100 for further external processing.

Digital signal processing After A/D conversion of the signal, the signal path is split up: In the first path, the IF spectrum is calculated using a digital downconverter (DDC), a digital bandpass filter and the FFT block. The bandwidth of the bandpass filter can be selected between 1 kHz and 10 MHz. Before the IF spectrum is output on the display or via the LAN interface, results are postprocessed using the average, min. hold or max. hold function as selected by the user. In the second path, which also includes a DDC and a bandpass filter, the signal is processed for level measurement or demodulation. To process the different signals with optimum signal-to-noise ratio, the receiver contains IF filters with demodulation bandwidths from 150 Hz to 500 kHz, which can be selected independently of the IF bandwidth. Prior to the level measurement, the absolute value of the level is determined and weighted using the average, max. peak, RMS or sample function, as selected by the

user. The measured level is then output on the display or via the LAN interface. To demodulate analog signals, the complex baseband data passes through the baseband filter, then undergoes automatic gain control (AGC) or manual gain control (MGC) and is finally demodulated in the AM, FM, USB, LSB, ISB, pulse or CW demodulation stages. After the AGC/MGC stage, the complex baseband data (I/Q data) resulting from the digitized signals is directly output for further processing.

Simplified block diagram of the R&S®PR100 frontend Lowpass filter

flimit = 30 MHz

Gain = typ. 11 dB

ATT

Att = 10 dB 9 kHz to 30 MHz

Lowpass filter 20 MHz to 3.5 GHz

flimit = 8 GHz

Preselection

21.4 MHz Three-stage IF section

to A/D converter

Gain = typ. 20 dB 21.4 MHz Lowpass filter

Highpass filter

3.5 GHz to 8 GHz flimit = 3.5 GHz

Gain = typ. 10 dB

analog IF output (uncontrolled)

flimit = 8 GHz


The results obtained are available as digital data and can be output via the LAN interface as required for the particular task. Digital audio data is reconverted to analog signals for output via the loudspeaker. High receiver sensitivity, high signal resolution The R&S®PR100 features an IF bandwidth of up to 10 MHz. This allows even very short signal pulses to be captured since the receiver displays the wide bandwidth of 10 MHz in a single spectrum around the set center frequency without any scanning being required. The widest IF bandwidth of 10 MHz yields the widest spectral display; the narrowest IF bandwidth of 1 kHz yields maximum sensitivity.

IF spectrum FFT calculation of the IF spectrum is performed in a number of steps. These are described below in simplified form for an IF bandwidth of 10 kHz (BWIF spectrum = 10 kHz), which yields high sensitivity. Due to the finite edge steepness of the IF filter, the sampling rate fs must be larger than the selected IF bandwidth BWIF spectrum. The quotient of the sampling rate and the IF bandwidth is thus a value > 1 and is a measure of the edge steepness of the IF filter. This relationship is expressed by the following two formulas: fs

= const

BWIF spectrum or

The IF spectrum is digitally calculated using a fast Fourier transform (FFT). The use of FFT computation at the IF offers a major advantage: The receiver sensitivity and signal resolution are clearly superior to those of a conventional analog receiver at the same spectral display width.

fs = BWIF spectrum · const The value of the constant is dependent on the selected IF bandwidth, i.e. it may vary as a function of the IF bandwidth. For an IF bandwidth of BW IF spectrum = 10 kHz, the constant has a value of 1.28. Therefore, to display a 10 kHz IF spectrum, a sampling rate of fs = 12.8 kHz is required.

Block diagram of the R&S®PR100 digital signal processing Normal (clear/write)

Average Display

Bandpass filter

DDC

9 kHz to 30 MHz

FFT IF spectrum 10 kHz to 10 MHz

Max. hold

IF spectrum LAN

Min. hold

A D

21.4 MHz

IF3

Average Bandpass filter

DDC

ABS Demodulation bandwidths 150 Hz to 500 kHz

Max. peak

Level measurement

Display and LAN

RMS

Sample

Analog audio Lowpass filter

AGC

MGC

22

Demod.

Digital audio via LAN I/Q data via LAN

The R&S®PR100 uses an FFT length N of 2048 points to generate the IF spectrum. To calculate these points, the 12.8 kHz sampling band in the above example is divided into 2048 equidistant frequency slices, which are also referred to as bins (see figure “Signal processing for IF spectrum”). The bandwidth BWbin of the frequency slices is obtained as follows: BWbin =

fS

=

2048

12.8 kHz

= 6.25 Hz

2048

This means that in the above example, only the calculated bandwidth of 6.25 Hz for each bin has to be taken into account as the noise bandwidth in the calculation of the displayed noise level (DNL) in accordance with the formula below (the effect of the window function (Blackman window) of the FFT is not considered here for simplicity’s sake):

The quantity NF represents the overall noise figure of the receiver. The above example shows that, due to the use of the FFT, the actual resolution bandwidth (RBW) to be taken into account in DNL calculation is clearly smaller (i.e. BWbin) than would be expected for the wide display range of 10 kHz. Another advantage of the high spectral resolution used in the FFT calculation is that signals located close together (e.g. f1, f2, f3) can be captured and represented in the IF spectrum as discrete signals (see figure “Signal display in IF spectrum”). If, on an analog receiver, a resolution bandwidth equal to the set IF bandwidth were selected (RBW = BWIF spectrum), a sum signal fsum would be displayed instead of the three discrete signals f1, f2 and f3.

DNL = –174 dBm + NF + 10 · log(BWbin /Hz) Signal processing for IF spectrum a in dBµV

n=1

−6.4

n = 2048

fRX

−5

5

6.4

Frequency in kHz

10 kHz 12.8 kHz

Actual sampling bandwidth compared with selected IF bandwidth

Signal display in IF spectrum a

Input signal

IF spectrum

a IF bandwidth

f1 a

f2

f3

f

Input signal

f1 IF spectrum

f2

f3

f

a IF bandwidth

f1

f2

f3

f

l a t i g i D

fsum

g o l a n A

f

Signal resolution in IF spectrum with digital and analog receiver concept


Panorama scan The receiver’s maximum FFT bandwidth of 10 MHz makes it possible to perform extremely fast scans across a wide frequency range (panorama scan). For this purpose, frequency windows of max. 10 MHz width are linked in succession, so that the complete, predefined scan range is traversed (see figure “Signal processing in panorama scan mode”). As is done for the IF spectrum, an FFT is used to process the broad window with a finer resolution. The width of the frequency window and the FFT length (number of FFT points) are variable and are selected by the receiver. In the panorama scan mode, the user can select among 12 resolution bandwidths from 125 Hz to 100 kHz. The resolution bandwidth corresponds to the width of the frequency slices (bin width) mentioned on page 23, under “IF spectrum”. Based on the selected bin width and start

and stop frequency, the R&S®PR100 automatically determines the required FFT length and the width of the frequency window for each scan step. The receiver selects these internal parameters so that the optimum scan speed is achieved for each resolution bandwidth (see figure “Resolution in panorama scan mode”).

In the panorama scan mode, the resolution bandwidth of 100 kHz yields the maximum scan speed, while the resolution bandwidth of 125 Hz yields maximum sensitivity. The resolution bandwidth (bin width) for the panorama scan (selectable between 125 Hz and 100 kHz) therefore corresponds to the resolution bandwidth (BWbin) used in the DNL calculation for the IF spectrum (see DNL formula on page 23, under “IF spectrum”), and can be used for calculating the DNL for the panorama scan. Moreover, the user selects the resolution bandwidth to obtain the desired frequency resolution (see figure “Bin width and channel spacing”). The above explanations show that the use of digital signal processing in a monitoring receiver offers decisive advantages. Extremely high sensitivity (due to very fine resolution) combined with a broad spectral overview and high scan speed significantly increases the probability of intercept in comparison with an analog receiver.

Example: signal processing in panorama scan mode Max. realtime bandwidth V µ B d n i a

FFT window 1 n=1

FFT window 2

FFT window n

n=X

fstart

fstop Frequency in MHz

Basic sequence of steps in fast panorama scan mode

Resolution in panorama scan mode V µ B d n i

Example: resolution in panorama scan mode Points for FFT calculation V µ B d n i

Realtime bandwidth

a

a

n=1

n=X

Bin width Channel spacing

Frequency in MHz Step width = bin width

f1

f2

Frequency in MHz

Signal frequencies

Selection of resolution for panorama scan by varying the bin width

24

Selection of 12.5 kHz bin width to capture a radio service using 12.5 kHz channel spacing

R&S®HE400 active directional antenna Five different antenna modules from 8.3 kHz to 8 GHz are available. They can be plugged into the antenna handle in order to enable reception of vertically or horizontally polarized signals. The type of module and its orientation is detected by the antenna handle – making it possible to automatically display field-strength values on the R&S®PR100 based on stored antenna factor data.

R&S®HE400HF

R&S®HE400VHF

HF antenna module.

VHF antenna module.

R&S®HE400UWB

R&S®HE400LP

UWB antenna module.

log-periodic antenna module.

Portable monitoring and measuring system The R&S®HE400 1) active directional antenna and the R&S®PR100 portable receiver together form a powerful receiving system for locating transmitters. The portable and lightweight instrument combination can perform measurements in buildings or in rough terrain that even four-wheel-drive vehicles cannot access. The cost-effective monitoring system, featuring position finding and level measurement, offers another decisive advantage: It can be transported and deployed relatively inconspicuously. Ease of use and control The R&S®HE400 features trigger and toggle buttons directly on the antenna handle, allowing users to perform all necessary controls – including receiver-configurable trigger actions. Its light weight makes operation fatigue-free. In conjunction with the removable armrest, even long-term surveillance tasks in the field do not stress the user. For long-term monitoring at fixed locations, the antenna can be mounted on a tripod. The connecting thread on the grip piece matches the mounting bolts of conventional camera tripods. Sensitivity and dynamic range A built-in, switchable low-noise amplifier (LNA) further enhances system sensitivity at low signal field strength, increasing the probability of intercept (active mode). In the passive mode, the amplifier is bypassed, so that the antenna can also be used in the vicinity of strong signal sources. The LNA as well as all other components in the antenna are supplied by the connected receiver via the cable set, thus eliminating the need for batteries inside the R&S®HE400. Geolocation and triangulation The integrated electronic compass delivers exact azimuth and elevation data. Together with the sen sitive GPS- and Glonass-capable receiver in the antenna handle, precise location accuracy is provided by triangulation. 1)

Available from Q4 2016.

Specifications in brief of the R&S®HE400 Frequency range HF antenna module

8.3 kHz to 30 MHz

R&S®HE400CEL

VHF antenna module

20 MHz to 200 MHz

cellular antenna module.

UWB antenna module

30 MHz to 6 GHz

Log-periodic antenna module

450 MHz to 8 GHz

Cellular antenna module

700 MHz to 2500 MHz

Polarization VSWR

adjustable, linear vertical or horizontal typ. < 2.5

RF output

N connector, male

Control and power supply

7 pin male (via R&S®PR100)

Operating weight

< 1 kg (grip piece with one module)


Specifications in brief Specifications in brief RF data

Frequency range

9 kHz to 7.5 GHz

RF input Impedance Preselection

50 Ω

9 kHz to 30 MHz

30 MHz lowpass filter

20 MHz to 1.5 GHz

tuned bandpass filters

1.5 GHz to 7.5 GHz

highpass/lowpass filter combination

16 filters (specified values indicate 3 dB bandwidth) all demodulation bandwidths

1 kHz to 10 MHz, 1/2/5/10/20/50/100/200/500 kHz, 1/2/5/10 MHz normal (clear/write), average, max. hold, min. hold 150/300/600 Hz, 1.5/2.4/6/9/12/15/30/50/120/150/250/300/500 kHz AM, FM, pulse, I/Q

demodulation bandwidth ≤ 9 kHz

LSB


ISB


CW

start and stop frequency, step width

user-selectable

scan speed

up to 200 channels/s

memory locations

1024, user-programmable

scan speed

up to 150 channels/s

start and stop frequency

user-selectable

resolution bandwidths (bin widths)

125/250/500/625 Hz, 1.25/2.5/3.125/6.25/12.5/25/50/100 kHz up to 2 GHz/s

IF data

IF spectrum display range

Display modes IF demodulation bandwidths Demodulation modes

Scan modes

Frequency scan (FScan) Memory scan (MScan) Panorama scan (PScan)

scan speed (RBW = 100 kHz, measurement time = 500 µs,

IF spectrum = normal, clear/write, display mode = IF spectrum) DF mode

Frequency range

20 MHz to 6 GHz

DF method

with R&S®ADD207 or R&S®ADD307 DF antenna, correlative interferometer or with R&S®ADD107 DF antenna above 173 MHz with R&S®ADD107 DF antenna below 173 MHz Watson-Watt

Display resolution

selectable

For data sheet, see 5213.9870.22 and www.rohde-schwarz.com

26

0.1° or 1°

Ordering information Designation

Type

Order No.

R&S®PR100

4079.9011.02

R&S®PR100-DCV

4071.9906.02

R&S®PR100-P S

4071.9306.02

R&S®PR100-IR

4071.9358.02

R&S®PR100-RC

4071.9406.02

R&S®PR100-ETM

4071.9458.02

R&S®PR100-FS

4071.9506.02

R&S®PR100-FP

4071.9558.02

R&S®PR100-GPS

4071.9958.02

R&S®PR100-DF

4096.280 5.02

R&S®PR100-P C

4096.2828.02

Battery Pack 6-cell lithium-ion battery, charging cradle, plug-in power supply Suitcase Kit hard-shell transit case with headphones and telescopic antenna and extra space for accessories Vehicle Adapter

R&S®PR100-B P

4071.9206.02

R&S®PR100-SC

4071.9258.02

R&S®HA-Z202

1309.6117.00

Carrying Holster chest strap and rainproof cover Carrying Bag soft carrying bag GPS Receiver external GPS receiver for the R&S®PR100 Handheld Directional Antenna (antenna handle) 1)

R&S®HA-Z222

1309.6198.00

R&S®HA-Z220

1309.6175.00

R&S®HA-Z240

1309.6700.03

R&S®HE400

4104.6000.02

HF Antenna Module, 8.3 kHz to 30 MHz

R&S®HE400HF

4104.8002.02

VHF Antenna Module, 20 MHz to 200 MHz

R&S®HE400VHF

4104.8202.02

UWB Antenna Module, 30 MHz to 6 GHz

R&S®HE400UWB

4104.6900.02

Log-Periodic Antenna Module, 450 MHz to 6 GHz

R&S®HE400LP

4104.8402.02

Cellular Antenna Module, 700 MHz to 2500 MHz

R&S®HE400CEL

4104.7306.02

Cable Set for R&S®HE400 and R&S®PR100 or R&S®FSH

R&S®HE400-K

4104.7770.02

Transport Case for R&S®HE400

R&S®HE400Z1

4104.9009.02

Transport Bag (small) for R&S®HE400

R&S®HE400Z2

4104.9050.02

Transport Bag (large) for R&S®HE400

R&S®HE400Z3

4104.9080.02

Tripod for R&S®HE400

R&S®HE400Z4

4104.9109.02

Base unit

Portable Receiver IF spectrum (max. 10 MHz), spectrogram (waterfall display), 6-cell lithium-ion battery, plug-in power supply, SD card for storing user settings, shoulder strap Documentation of Calibration Values Software options

Panorama Scan RF scan, high-speed FFT scan across user-selectable scan range, selectable spectral resolution (bin width) Internal Recording recording of measured data in the receiver (64 Mbyte RAM) or on SD card, recording of audio data in WAV format (replay using Windows Media Player, for example), recording of I/Q data, spectra and spectrogram (waterfall) data, R&S®PR100-Control software for viewing measured data on customer PC Remote Control remote control of receiver via LAN interface (SCPI protocol); transfer of measured data via LAN interface; transfer of demodulated I/Q data (up to 500 kHz bandwidth) via LAN interface; R&S®PR100-Control software (for remote control, data recording and data playback via PC) Externally Triggered Measurements an external sensor (not supplied with the receiver) triggers a measurement in the R&S®PR100; the sensor is connected via the AUX interface Field Strength Measurement the field strength is calculated using antenna factors stored in the receiver; the receiver displays the field strength directly in dBµV/m

SHF Frequency Processing for downconverter antennas the downconverter unit of the R&S®HF907DC antenna is connected to the receiver via a control cable; the receiver recalculates the downconverted signals to display them with their original frequencies up to 18 GHz and with the sidebands in their original positions, thus relieving the user from having to convert signals subsequently (antenna and downconverter not supplied with the R&S®PR100-FP option) GPS Software Interface for data stream processing of external GPS module (GPS module not included in scope of delivery) Direction Finder Upgrade Kit adds accurate direction finding functionality to the R&S®PR100 receiver (DF antennas and cable set not included) Polychrome Spectrum Display adds a color-coded spectrum display to indicate the relative signal occupancy Accessories


Designation

Type

Order No.

SHF Directional Antenna with Downconverter

R&S®HF907DC

4070.8006.02

Cable Set

R&S®HF907DC-K1

4070.8958.02

Compact VHF/UHF DF Antenna

R&S®ADD107

4090.7005.02

Compact UHF/SHF DF Antenna

R&S®ADD207

4096.0002.02

Collapsible VHF/UHF DF Antenna

R&S®ADD307

4098.2002.07

Vehicle Adapter with Magnet Mount

R&S®ADD17XZ3

4090.8801.02

Cable Set with Converter

R&S®ADD17XZ5

4090.8660.02

Wooden Tripod

R&S®ADD17XZ6

4090.8860.02

Tripod Bag for R&S®ADD17XZ6

R&S®ADD17XZ7

4096.1450.02

DF Antenna Backpack, for R&S®DDF007, R&S®ADD107 or R&S®ADD207, R&S®ADD17XZ5 and R&S®ADD17XZ3 R&S®ADD17XZ8

4096.1580.02

Antenna Cable with Converter for R&S®ADD307, length: 5 m

R&S®ADD17XZ9

4098.3615.15

Extender Cable RF for R&S®DDF007 and R&S®PR100-DF

R&S®EXTCABLRF

4096.1650.03

Extender Cable Control for R&S®DDF007 and R&S®PR100-DF

R&S®EXTCABLCTL

4096.1650.04

Extender Cable Set for R&S®DDF007 and R&S®PR100-DF

R&S®EXTCABLSET

4096.1650.02

SHF antenna and accessories

DF antennas and accessories

1)

Available from Q4 2016.

R&S®HA-Z202 vehicle adapter.

R&S®HA-Z220 soft carrying bag.

R&S®HA-Z222 carrying holster incl. chest strap and rainproof cover. Rohde & Schwarz R&S®PR100 Portable Receiver 28

Service options Extended Warranty, one year

R&S®WE1

Extended Warranty, two years

R&S®WE2

Extended Warranty, three years

R&S®WE3

Extended Warranty, four years

R&S®WE4

Extended Warranty with Calibration Coverage, one year

R&S®CW1

Extended Warranty with Calibration Coverage, two years

R&S®CW2

Extended Warranty with Calibration Coverage, three years

R&S®CW3

Extended Warranty with Calibration Coverage, four years

R&S®CW4

Please contact your local Rohde & Schwarz sales office.

R&S®PR100-BP battery pack, consisting of 6-cell lithium-ion battery, charging cradle and plug-in power supply.

R&S®PR100-SC suitcase kit, consisting of hardshell transit case (trolley case, with headphones and telescopic antenna and extra space for accessories).


PR100 Portable Receiver

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